Multi-Functional Pouch for Transporting and/or Suspending an Electronic Device

ABSTRACT

A multi-purpose carrying pouch attaches to surfaces/objects, to retain an electronic device in a desirable position for hand-free use as a camera or video recorder. An upper bi-fold flap with integrated suction cup unfolds and extends upwards from a main body of the pouch. The main pouch compartment is opened/unzipped to allow the electronic device to be stored, or to be inserted in an upright position with both zipper-sliders moved to a central region along the zipper near the device to capture the device in portrait orientation. An elastic strap extends transversely from a zipper pocket formed in the pouch, wraps around the electronic device, and fastens to a lower bi-fold flap to capture the device in landscape orientation. The zipper pocket and strap may be located in various locations, for example, on the interior or exterior surface of the pouch.

This application claims benefit of Provisional Application Ser. No. 61/625, 461, filed Apr. 17, 2012 and entitled “Pouch/Bag and Elastic Strap Integration: a self-photo/video taking apparatus”, the disclosure of which is incorporated by this reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention generally relates to holsters or holders for electronic devices that have camera and/or video-recording capabilities. More particularly, the invention relates to apparatus holding a portable electronic device, such as a cellular phone, smart phone, camera, or other digital media device, whereby the device may be secured to a smooth vertical support surface, for example, for hands-free use.

2. Related Art

There are many electronic device holster and carrying solution designs in the prior art. Still there is an absence of carrying pouch designs that are operable with nearly all photo-capable cellular smartphone designs. To the applicant's knowledge, there has not yet been disclosed a universal smartphone holster/pouch, with integrated suction cup with hook and loop fasteners, that can hold photo-capable cellular smartphones in multiple orientations and secure the phone by suction cup attachment option to smooth support surfaces or smooth objects.

With the development of information communication technology, cellular phones have become essential tools modern life. More recently, the cellular phone is provided with various functions, such as a camera, in addition to a function of simply calling or answering the telephone. In addition, various smart phones have software applications (known as “apps”) that allow a user to take photos using self-timers, voice activation, or motion sensors. These shutter functions can be initiated and/or a shutter timer started, for example, by a preset timer, sound such as a clapping noise or voice command, or motion detection or lack thereof. Thus, the cellular phone is recognized as advanced picture-taking and video-recording equipment, going beyond the functionality of a traditional camera used solely for picture taking purposes.

With the advancement of cell phone technology, there is a need for a universal, convenient, and inexpensive carrying pouch with suction cup apparatus that is operable with most present day smartphones and other similar electronic devices, allowing for hands-free pictures/video. This invention addresses that need.

SUMMARY

The present invention comprises a multi-purpose pouch apparatus that provides a carrying solution, and also allows for attachment of the apparatus and an electronic device to vertical surfaces, for example, to retain the electronic device in a desirable position during use as a camera or video recorder. Certain embodiments are adapted to hold the electronic device in a horizontal/landscape orientation, for example, by use of a strap that encircles the electronic device and fastens to a lower flap, whereby the strap's elasticity tightens around the device to hold the device securely in place on/against the pouch apparatus. In certain embodiments, an internal strap comprising hook-and-loop fastener material is the encircling strap and may be extended from a pocket in the pouch apparatus to connect to cooperating material at a location on the lower flap. Certain embodiments are adapted to hold the electronic device in a portrait orientation, for example, a double zipper pouch may be oriented, and of such a depth, to receive the electronic device inside the pouch, in an upright position with lens exposed. In these embodiments, one or more hanging means are provided to connect the pouch apparatus to a vertical surface or other object for suspending the pouch apparatus and its captured electronic device when taking videos or photos.

In certain embodiments, a bi-fold flap system at the rear of the pouch comprising hook-and-loop fastener material may be unfastened and unfolded to expose a suction cup, which may then attached to a smooth surface and serve as the hanging means. The preferred rear bi-fold flap system may comprise two flaps, for example, including an upper flap having a patch of hook and loop fastener as well as the suction cup, and a lower flap, for example as disclosed above, having the corresponding patch of hook and loop fastener. The suction cup may comprise a knob that is inserted through a small hole/slot in the upper flap, with a tight fit between knob and hole/slot to secure the cup in place. Further, the preferred bi-fold flap system, when the upper and lower flaps are securely fastened to each other by the incorporated hook and loop fasteners, creates an enclosable loop that can encircle objects such as straps, belts, or harnesses, for example, as a hanging or carrying means. For example, in certain embodiments, the bi-fold system may be secured around a person's belt, a harness, or shoulder strap of a larger unassociated bag, for example, to accomplish the simple task of providing a secure carry solution for the desired electronic device within the pouch apparatus.

Thus, the apparatus is a multi-purpose invention, allowing for secure carrying and transport of electronic devices, as well as the tasks associated with hand-free picture taking and video recording functions by suspension from vertical or generally vertical surfaces.

In preferred embodiments, the pouch comprises a main body with a longitudinal axis, and a double-zippered opening at least at the top of the pouch and extending parallel to the longitudinal axis, wherein the double-zippered opening may provide the opening into the main interior compartment of the pouch. An additional longitudinal opening may be provided below the double-zippered opening, for example, into a pocket within a wall of the pouch. A transverse strap may extend from an inside space of the pouch and out through one of the openings, for example, preferably out through said additional longitudinal opening but alternatively through the double-zippered opening, and/or out of a pocket in the interior compartment of the pouch. The transverse strap is sized in length so that it may encircle the electronic device resting against the front of the pouch, and fasten by hook-and-loop fastening to the lower flap of the bi-fold flap system, to hold the electronic device so that its length is parallel to the longitudinal axis of the main body, that is, “held horizontally”. In preferred embodiments, the bi-fold flap system may be unfolded and extend longitudinally up and down from at or near a central region of the rear of the main body. The bi-fold flaps of material are sized in length so that the upper flap may rotate/swing upwards to expose the suction cup in a rearward-facing position, therefore allowing connection to a smooth vertical surface, and so that the lower flap may reach forward to connect to the transverse strap.

The pouch may receive the electronic device through the double-zippered opening, and hold it so that the length of the device is perpendicular to the longitudinal axis of the main body, that is, “held vertically” in an upright position with the electronic device extending upwards from the top of the pouch. Therefore, the preferred double-zippered pouch thus is adapted to hold the electronic device upright with its lens exposed, with the pouch apparatus and electronic device suspended from the suction cup and bi-fold flap system. Instead or additionally, the preferred double-zippered opening and the main interior compartment of the pouch may be sized to receive and enclose the entire electronic device within the pouch for carrying or storage purposes.

The electronic devices for which the pouch is intended include a camera feature (photo and/or video), and a timer function or alternative shutter option that can be set prior to suspending the apparatus. For example, after a timer is set, the electronic device is inserted into the main compartment of the pouch (leaving the camera lens exposed), and the pouch apparatus is then suspended via suction cup on a smooth surface to allow the user to walk away to pose for the photograph, effectively taking a self-photo/video or allowing the user to join group photos/videos. This may be extremely useful for traveler(s) who want classic tourist-photos or group photos without asking a stranger to take the photos. This also may be extremely useful for road travelers who want photos of themselves and their companions in a scenic environment wherein there are no such “strangers” to hold the camera, wherein the present invention can be suspended from the exterior windows of a vehicle, or smooth panels.

As a result of the versatile design of the pouch with bi-fold flap portion, the picture/video-taker may utilize the apparatus in a variety of settings and locations. Further, the pouch may comprise at least one interior compartment to allow for convenient transportation and storage of a variety of electronic devices or other items that are often carried on one's person such as money, credit cards, chap stick, etc. The intention of the design is that the pouch compartment and its flexible and elastic strap will conform/fit most smart phone devices, or similar electronic devices with camera features.

It will further be seen that the inventor has disclosed herein an apparatus, for carrying/transporting an electronic device and also securing an electronic device to smooth surfaces and objects, which may be produced and manufactured from pre-existing parts/materials, but in a unique combination that has not previously been taught. The advantageous quality and unusual results obtained from such a combination has not previously been recognized or achieved.

While the following description details preferred embodiments, it will be understood that such detail need not be strictly adhered to, but that additional changes and modifications may suggest themselves to one skilled in the art, all falling within the scope of the invention as defined by the claims.

BRIEF DESCRIPTION OF THE DRAWINGS

The following description of the apparatus can be understood in light of the Figures, in which:

FIG. 1 is a front isometric view of one embodiment of the invented pouch apparatus with bi-fold flaps unfolded, wherein the elastic retention strap assembly is stored in its front zipper pocket and both zippers are closed on the main body of the pouch.

FIG. 2 is a front, top isometric view of the embodiment depicted in FIG. 1, with bi-fold flaps unfolded and elastic retention strap extending from the front zipper pocket in a fully-outstretched position.

FIG. 3 is a rear, bottom isometric view of the embodiment of FIG. 1, with the elastic retention strap assembly still in its fully-outstretched position, wherein the bi-fold flaps are open, and exemplary stitching, suction cup on the upper flap, and grommet on the lower flap are shown.

FIG. 4 is a front isometric view of the embodiment of FIG. 1 with the lower bi-fold flap wrapped forward and upward, and the elastic retention strap wrapped downward and rearward, around the device and fastened with the hook-and-loop fasteners, wherein the electronic device is in a landscape orientation and the suction cup is attached to a smooth vertical surface.

FIG. 5 is a left side view of the embodiment of FIG. 1 as it is being used in FIG. 4, wherein this figure demonstrates the preferred hook-and-loop fastener connection between the lower bi-fold flap and the retention strap to tightly encircle the device.

FIG. 6 is a rear bottom isometric view of the embodiment of FIG. 1, as it is in being used in FIGS. 4 and 5, illustrating the location of the suction cup facing openly to the rear from the upper bi-fold flap.

FIG. 7 is a front, isometric view of the embodiment depicted in FIG. 1 with the electronic device placed vertically into the double zipper pouch compartment and fastened in place by zipping the device into a central position within the pouch. The embodiment is removably attached by the suction cup to a flat surface (shown as a cut away), so that the embodiment is suspended with the device in an upright position with lens exposed and generally parallel to the flat surface.

FIG. 8 is a left view of the embodiment of FIG. 1 as it is being used in FIG. 7.

FIG. 9 is a top view of the embodiment of FIG. 1 as it is being used in FIG. 8.

FIG. 10 is a front isometric view of the embodiment of FIG. 1, wherein the electronic device is removed or stored within the pouch, and the bi-fold flaps are closed.

FIG. 11 is a rear isometric view of the embodiment of FIG. 1 as it is being used in

FIG. 10.

FIG. 12 is a right side view of the embodiment of FIG. 1 as it is being used in FIGS. 10 and 11, wherein the suction cup is securely stored, and entirely or substantially covered, inside the closed bi-fold flaps.

FIG. 13 is a rear isometric view of the embodiment of FIG. 1 as it is configured in FIGS. 10-12, except that the closed bi-fold flaps are closed around a belt or body strap, so that the bi-fold flaps create a loop for receiving the belt or body strap as another way of transporting/carrying the pouch and device.

FIG. 14 is a front isometric view of an alternative embodiment of the invented pouch apparatus.

FIG. 15 is a front isometric view of the embodiment of FIG. 14, with the main compartment is fully-opened to reveal an interior zippered compartment (or “pocket”) on the rear side of the main compartment, and with the bi-fold flaps opened. An elastic retention strap extends from the interior zippered compartment.

FIG. 16 is a front isometric view of the embodiment of FIG. 14, wherein the main compartment is closed to the extent allowed by the elastic retention strap extending out between the double zippers that are zipped to a central location at the top of the pouch.

FIG. 17 is a front isometric view of the embodiment of FIG. 14, illustrating the preferred connection between the lower bi-fold flap and elastic retention strap (extending from the top of the pouch from between the dual zippers), wherein the device is captured in a landscape orientation and the suction cup is attached to a vertical surface.

FIG. 18 is a right side view of the embodiment of FIG. 14 as it is being used in FIG. 17.

FIG. 19 is a front, isometric view of the embodiment of FIG. 14, with the electronic device placed vertically into the main compartment of the pouch and held/fastened in place in a central position by positioning the dual zipper sliders at the top of the pouch.

DETAILED DESCRIPTION

Referring to the figures, there are shown two but not the only, embodiments of the invented multi-purpose carrying pouch for suspending an electronic device that preferably contains both a camera feature and a time or other shutter feature. The pouch is shown in the figures by itself (FIGS. 1-3, 10-12, 14-16), holding an electronic device in portrait configuration (FIGS. 7-9, 19) and in landscape position (FIGS. 4-6, 17-18), and strapped to a belt/harness/object (FIG. 13).

The preferred multi-purpose pouch allows for self-picture-taking, giving the same effect as someone else taking the picture. The preferred embodiment effectively allows a user to place/affix his/her electronic device via the pouch to smooth vertical surfaces to allow for easier self-picture taking, or videos. Primary problems with much of the prior art includes: large size, expensive manufacturing process, bulkiness, potential for breakage due to plastic-based components, inconvenience in transportation, limited use to one type of device, etc. The preferred pouch solves these issues in that is it small, lightweight, has limited potential for breakage, is also useable for transport of small items that would normally be carried on one's person (in a pocket, purse, wallet, etc), and can be attached via suction cup to a variety of smooth vertical surfaces (or smooth objects such as a automobile), and is very inexpensive to manufacture.

By their nature, camera devices (especially portable electronic devices with camera functions) are meant to be utilized by an individual taking pictures of scenery, or pictures of other persons. Often, however, the user would like to attach the portable camera device to a specific location (usually to an object such as a tripod), while using an automatic timer, and have it remain there until the picture taking process is completed. The problem arises when an individual desires to take a picture of himself/herself in a particular setting. This situation often occurs with portable devices, such as wireless or cellular telephones with a camera, where a user attaches the device to a tripod, or sets the phone on a flat/stable surface or other surface during the picture taking process is complete. Often, finding an ideal surface to place a cellular phone at the proper height is challenging, especially in outdoor settings. Such traditional methods to not typically allow for dual camera orientation picture capture (portrait and landscape), as they most often only allow for a single orientation of the device. In addition, transporting a tripod of any size for such uses can be challenging, creating issues for convenience and storage of such apparatuses. The preferred storage pouch effectively reduces the size of the camera-phone-holding apparatus, is multi-purpose in design in that it also allows for transportation of items and devices, and provides a unique dual orientation capability (portrait and landscape), as well as allowing for more flexibility of picture-taking locations.

Household devices for affixing cameras or cell phone devices have been envisioned, but have not been constructed to allow for multi-purpose use such as serving as a traditional storage/carry solution for an electronic device and as an accessory for picture-taking from a variety of vertical surfaces or structures. This unique combination of functions has not previously been observed. Typically, tripods are constructed for and function to merely provide a stable object to affix a camera device, to allow for placement on a flat surface such as a floor or table top, or level topography such as the ground, roadway, or rock surface. The inventor believes that the major problems with traditional apparatus arise in transporting a tripod on one's person, in a vehicle, in a suitcase, or in a backpack etc. A secondary problem is associated with a tri-pod's limited capability for use on vertical surfaces both outdoors and indoors. While a tripod can effectively be used in some circumstances, the convenience of such an apparatus is not conducive to everyday use.

Referring specifically to the multi-purpose storage pouches of the drawings (which will be detailed with call-out reference numbers later in this document), the device preferably comprises a pouch, the main body of which may include two distinct halves or outer sides, for example, two halves hinged together and zippered for closure of the main interior compartment. While is it preferred that the pouch comprises a relatively large interior compartment that is sized to accept the preferred electronic device, it will be understood from this disclosure that one or more additional compartments may be provided in/on the pouch. Said one or more additional compartments may be described as one or more pockets created in one or both of the two halves and/or otherwise provided as a portion(s) of the pouch. The one or more additional compartments (pockets) are preferably zippered, however, other closure means may be provided, such as snapping, hook and loop fastener, or other fastening means.

The exterior of the pouch is preferably firm, for example, rigid or somewhat-rigid, so that the main body does not sag, droop, or twist. Optional internal lining material may be used that is somewhat flexible and soft. The firm exterior of the main pouch keeps the main body and, hence, the electronic device pointing in the desired and predictable direction for proper pointing at the subject of the photo/video, rather than twisting out of the desired vertical plane. Preferably, the main body of the pouch is not elastic or at least is substantially in-elastic.

The main body of the pouch is elongated and has a longitudinal axis; the main body may be described as a horizontal main body as it will typically be used in an orientation that places the longitudinal axis horizontally. The main pouch preferably includes a zipper system encircling around the outer edges (outer perimeter) of the pouch with dual zipper sliders. The zipper system can extend generally halfway around the main body pouch, or nearly the entire outer edge of the pouch, for example. Such different lengths of zipper would allow the pouch to be opened up to a variety of widths dependent upon the internal contents to be secured within the pouch and required size of the pouch opening as to create convenient access to contents therein. The dual slider system allows the pouch to be sufficiently enclosed around the electronic device while inserted into the top of the pouch, protruding upwards and out of the pouch in portrait mode.

Extending from the main body of the pouch is a set of bi-fold flaps sewn-on to the rear of the pouch (for example, 4″×6″ inch rectangular pieces of material sewn together with two folds). The bi-fold flaps extend generally transverse from the main body pouch upwards and downwards and hence may typically be called the upper and lower flaps. These bi-fold flaps are identified as such due to the design with two folds that allow the flaps to be folded upon themselves, or unfolded to expose the suction cup and hook/loop material. The upper flap contains a patch of hook fastener with a circular hole/notch at center to allow the knob of a suction cup to be tightly inserted, in a buttoning-type fashion. This preferred method of attachment allows the bi-fold system to be sewn in place to the main body of the pouch, and corresponding patches of hook/loop fastener to be sewn in place, and then the suction cup to be securely attached thereafter, thus, allowing the suction cup to be connected once the sewing is completed. The lower flap extends generally down from the mid region of the main body of the pouch, past the lower extremity of the pouch, to be identified as the lowermost end of the apparatus. This lower flap contains the corresponding patch of loop fastener, to allow connection of the upper and lower flaps. Note that hook and loop fasteners in the drawings are depicted as surfaces (underlined), as the operative features of hooks and loops are substantially at the surface of the patches.

The lower flap may include a grommet, for example, a ⅝″ grommet, located at the central region of the flap, which allows the knob of the suction cup to protrude into the open space at the center of the grommet while the flaps are folded upon themselves. This grommet system therefore allows for more compact storage of the suction cup, because, without the relief hole created by the grommet, the suction cup with knob could create bulkiness that is undesirable due to the intended compact design. The central locations of the grommet and suction cups on their respective flaps are therefore mirrored to create the preferred alignment when flaps are folded upon themselves. The bi-fold flaps are preferably flexible or at least bendable, so that they may effectively curve/wrap around the electronic device, fold/bend upon themselves, and/or around portions of the main body; some inflexibility along short lengths may be acceptable, for example, as hook-and-loop patches can reduce flexibility in their regions.

While various connectors could be used to connect the upper and lower flaps, it may be understood that the preferred connection is by quick-connect and quick-disconnect fasteners, so they may be quickly fastened around the electronic device, as well as fastened upon themselves in the bi-fold fashion. Hook-and-loop fasteners are the preferred quick-connect/disconnect fasteners, and patches about 1.5″-2″ inches wide and 3″-4″ long are secured to one or both sides of the flaps, with the patch on the upper flap being forward-facing (when the upper flap is upwardly-extending) and the patch on the lower flap being rear-facing (when the lower flap is downwardly-extending). The hook-and-loop fastener may be sewn into place or adhesively-attached, for example.

In preferred embodiments, another layer(s) of material may be folded and sewn to the front of the main body pouch or otherwise provided, to create a small front zipper pocket, preferably with a one-slider-zipper longitudinally oriented along the front of the pouch. Within the preferred front zipper pocket is attached the retention strap, which may also be described as a “transverse strap” due to its length extending transversely to the longitudinal axis of the elongated pouch. The strap can be conveniently stored within said front zipper pocket or extended out of the open pocket. The retention strap is preferably elastic or substantially elastic and is sewn into the top interior of the front zipper pocket, extending downward (vertically) perpendicular to the longitudinal axis of the body. The retention strap preferably contains hook or loop fastening material sewn onto one side of the distal end of the strap, that is, preferably on the bottom side as it is oriented in FIG. 2.

The corresponding/cooperating hook/loop fastener for the retention strap is preferably sewn onto the rear side of the lower bi-fold flap itself, on the lower half of the flap (for example, ¾-1 inches from the main body). This length of the retention strap is chosen to allow it to wrap securely around the electronic device (preferably a smart phone) placed against the front of the main body pouch, and downward to connect with the lower bi-fold flap, so that the hook/loop fastener on the distal end of the retention strap attaches to the fastener on the back of the lower flap (now facing forward by means of the flap wrapping around the lower portion of the main body pouch).

In alternative embodiments, the smaller zipper pocket can alternatively be located inside the main compartment of the pouch rather than being located at the outer, front-facing side of the pouch. Preferably, the smaller zipper pocket faces forward, sewn to the forward-facing side of the back internal wall of the pouch. This internal location allows for the same functionality as the outer location, because the retention strap can be extended through the top of the main pouch (when partially unzipped) and extended downward to curve/wrap around the electronic device and connect with the lower bi-fold flap. This curving from the interior of the upper region of the main body of the pouch to the lower portion of the exterior of the main body creates an elastic-retention-loop for receiving the electronic device. The preferred retention strap is sized and placed so that this top-to-bottom configuration creates an elastic retention-loop well-adapted to hold a conventional smart phone electronic device in a landscape orientation (horizontally, with length of the smart phone parallel to the longitudinal axis of the main body). The zipper pocket can therefore be in two locations, but retaining similar or identical dimensions and features regardless of the location. One may note that either of these retention strap locations may be described as examples of a retention strap attached to and extending from an upper portion of the pouch. This attachment and extension from “an upper portion” is desirable as it results in the top part of the retention-loop being at or near the top of the pouch, and the retention-loop enclosing a retainer space (27, FIG. 5) at or near the front of the pouch.

The combination of double-zipper pouch and bi-fold flaps in conjunction with the smaller zipper pocket design are unique features of the apparatus, because, when combined, they allow for two picture taking orientations (landscape and portrait). The transverse retention strap that extends from the smaller zipper pocket, for example, is typically used for a landscape orientation, and the main body of the pouch with double zipper sliders is typically used for portrait orientation. The bi-fold flaps are unfolded in both instances to expose the suction cup (facing to rear) and allow attachment to a smooth vertical or generally vertical surface.

Hereafter, the specific design elements of this preferred embodiments will be described with reference to the accompanying drawings and reference numbers. In the following detailed description, reference numerals and letters are used to identify structural elements, portion of elements, surfaces, objects, or features that may further be explained by the entire written specification. Unless otherwise indicated, the drawings are intended to be read together with the specification and are considered to be a portion of the entire written description of the invention. The matters defined in the description, such as the detailed construction and elements, are details provided to assist those of ordinary skill in the art in a comprehensive understanding of the invention which is defined by the claims herein.

FIG. 1 is a front, isometric view of the pouch device 1. The pouch 2 (also “pouch main body 2”) is formed from two individual sides or halves, connected along part of the length of the bottom of the main body (for example, at a “hinge”) by conventional sewing methods, with zippers sewn along the remaining outer edges of the pouch that can be zipped together to bind the edges of the two sides of the pouch, thus creating a two-sided pouch main body that can be opened and closed. To the double-sided main zipper are connected two zipper sliders 4 and 5 allowing the pouch to be opened and closed in either direction along the zipper 10. The zipper 10 extends at least halfway around the pouch 2, but the length of the zipper can vary depending on the desired storage methods and required access to the interior of the pouch. The general dimensions of the pouch 2 can be altered or modified to accommodate different sizes of electrical devices to allow such devices to be securely held within the interior of the pouch, zippers closed, to act as a storage compartment for said devices. It is preferred that the pouch 2 sized to be generally the size (length, width, and depth) of the electrical device to be carried, for example, with about 10-20 room in each dimension. Other sizes may be used in certain embodiments, for example, if it is desired to have extra room for other pouch contents or to make a larger pouch that may accommodate more models of electronic devices. An important criteria in certain embodiments, however, is that that width (top to bottom) of the pouch be large enough to fit the width of the electronic device, but smaller than the length of the electronic device; this way, the electronic device will extend above the pouch when inside the main compartment in the portrait orientation. From the pouch 2 extend two flaps of material, upper flap 6 and lower flap 18, which are the free ends of a larger rectangular piece of a multi-layer material sewn onto the rear of the pouch 2.

The pouch 2 may be constructed by conventional sewing and/or adhesive techniques. In certain embodiments for many conventional smartphones, one or more layers of fabric material, such as nylon cut in rectangles approximately 4 inches by 7 inches with rounded corners, may be formed into the main body of the pouch. The main body may optionally include a front zipper pocket 16, an example of a “smaller zipper pocket” or “front zipper pocket”, which includes a traditional zipper 14 and slider 12 to create an openable/closeable compartment at the front of the main body of the pouch

The rear rectangular bi-fold flap system may be a multi-layer construction of material such as nylon, the layers being connected together via an outer edge binder that is sewn in place by traditional sewing methods. This multi-layer piece bi-fold system has at least some flexibility to allow the material to be folded upon itself. The nature in which the rectangular material is sewn onto the rear of the main body creates upper flap 6 and lower flap 18, extending beyond the main body of the pouch and foldable rearward to attach to each other, and also foldable forward for the lower flap to connect to the retention strap, for example. These flaps extend preferably 2.5 inches transversely from the main body of the pouch, each comprising multiple features. Exe features include patches of hook and loop fastener material sewn to the flaps, the hooking fastener preferably sewn to the front-facing side of upper flap 6, and the loop fastener preferably sewn to the rear side of lower flap 18. The upper flap 6 with hook material is sufficiently rigid to allow for a small hole/slot preferably to be cut at a central location. This small hole/slot will allow the knob 20 of a two-inch suction cup 8 to be inserted therein by button-type fashion. The preferred flap has multiple layers of material to create a sufficiently rigid section of material with strength to retain the knob 20 of the suction cup due to the fact that the diameter of the knob is larger than the diameter of the hole/slot opening. Alternatively or in addition, other methods of connecting the suction cup to upper flap 6 may be used. The lower flap contains a circular hole cut at a similar central location as the upper flap to allow these holes/slots to perfectly align with one another when the flaps are folded upon themselves. The circular hole cut into the lower flap 18 is approximately ¼″ in diameter to allow the insertion and attachment of circular metal grommet to be attached in traditional fashion.

FIG. 2 is a front, isometric view of pouch device 1 with the slider 12 moved to open the zipper 14, therefore opening the front pocket 16 to allow the removal of the elastic retention strap 20 so that it stretches out horizontally from the front pocket 16. A patch of 1.5″ wide hook material 24 approximately 1″-1.5″ long is sewn into place on the distal end of the strap 22.

FIG. 3 is a rear isometric view of the pouch device 1, wherein the elastic retention strap 20 is extending from the zipper pocket. One may see the bi-fold flap system 31 comprises the upper flap 6 and lower flap 18 extending in opposite directions from the pouch 2. This side view demonstrates the attachment location for the suction cup 8. Here one may see to best advantage that the bi-fold flap system 31 is created from a multi-layer piece of material which is sewn to the rear of the pouch 2 at a central location (seams shown). The lower flap 18 incorporates a ⅝″ grommet 26 at the central region of the lower flap 18, connected to the material at a location generally co-liner with the location at which the suction cup knob protrudes through the material of the upper flap 6. This grommet 26 and corresponding hole acts as a relief hole for the knob of the suction cup to extend into, therefore minimizing any bulkiness created by the integrated suction cup when the flaps are folded upon themselves. The rearward-facing section of the lower flap 18 contains a patch of loop material 19 substantially sewn in place to serve as a connection surface for both the patch of hook material 24 on the end 22 of the elastic retention strap 20 (FIGS. 4-6), as well as the patch of hook material 7 sewn to the front facing side of the upper flap 6 (FIGS. 10-13).

FIG. 4 illustrates the device 1 in use with the retaining loop (of strap 20 and flap 18, for example) wrapped around an electronic device 28 in the landscape orientation, wherein the upper flap 6 is unfolded and the suction cup 8 removably attached to a smooth vertical flat surface 9. The slider 12 is pulled open, transverse strap 20 is extended from the pocket 16, lower flap 18 is wrapped upwards and around the lower side of the pouch 2 and the lower edge of the electronic device 28, which places loop material 19 front facing to serve as a connection for the corresponding patch of hook material 24. Note that the sole means of retaining the device 28, in this configuration and use, is the retaining loop, and especially elastic strap 20, wrapping tightly around and/or being elastically stretched, to tightly grip/hold the device 28 against the front of the pouch 2. This retention method suspends the device and camera lens 29 generally parallel to the surface 9, as one way of suspending the device.

FIGS. 5 and 6 illustrate to best advantage how the electronic device 28 is tightly captured by the elastic retention strap 20 and the lower flap 18, so that the device 28 is pressed tightly against the front of the main pouch 2. The orientation of the upper flap 6 is shown to place the knob 11 of the suction cup 8 extending through the multi-layer material flap 6, so that the suction cup 8 faces to the rear. The knob 11 is preferably inserted into a hole/slot at the central region of the upper flap 6 in a buttoning-type connection method, keeping the suction cup tightly held in place, but allowing it to be attached once sewing is completed, or removed at a later time. The integrated zipper system 10 on the sides of pouch 2 is preferably extended around the top and only a portion of the sides, thus creating a pouch 2 that can be opened for accessing the interior of the pouch or closed to safely store items within the pouch itself.

FIGS. 7-9 show pouch device 1 in use holding an electronic device 28 in portrait orientation. The bi-fold flap system 31 is in an unfolded orientation, exposing the suction cup 8 allowing for attachment to a smooth surface 9. Note that the knob 1 is not so large that it protrudes in a forward direction to touch/interact with the electronic device 28. The suction cup 8 is shown with cup facing to the rear allowing for connection with smooth surfaces. The double sliders 4 and 5 open the zipper at the top of the pouch 2, providing an opening into which is inserted the electronic device 28. Once the electronic device 28 is inserted into the main interior compartment 35 (interior space) of pouch 2, in an upright position, the sliders 4 and 5 can then be moved toward the device 28 to tighten the opening of the pouch around the device 28 to create a holstering effect. Due to the adjustable nature of the two sliders 4 and 5, the pouch 2 can therefore secure a wide spectrum of electronic devices with varying sizes (especially varying widths), camera locations, and designs, in a portrait orientation. It is the specific intention of the pouch 2 to allow for operation with numerous existing models of devices, as well as future models.

FIG. 10 is a front isometric view of pouch device 1, with the electronic device removed (or stored inside the pouch 2) and with bi-fold flaps folded to the rear and secured in place to each other. The main pouch 2 is depicted fully closed with sliders 4 and 5 located at the center of the top edge of the main compartment, therefore fully closing the zipper 10 to allow an electronic device (not shown) to be stored within the pouch 2. The front pocket 16 is shown with slider 12 in a position to close the zipper 14, allowing the elastic strap 20 (not shown in this view) to be securely held within the pocket 16 for storage while not in use. The storage pocket 16 is of sufficient size to store the elastic strap therein, but also to allow for storage of additional items that are traditionally carried on one's person such as chap-stick, credit cards, monies, etc.

FIG. 11 is a rear isometric view of the pouch device 1 in the orientation and use of FIG. 10. The preferred folding technique for the bi-fold system is to first fold the upper flap 6 downwards, followed by folding the lower flap 18 upwards to cover a portion of the upper flap, hence connecting the hook and loop material. The lower flap 18 contains a grommet 26 located at the central portion of the flap, which preferably aligns with the knob 11 of the suction cup to provide a space/recess in which the knob can rest, therefore minimizing the thickness of the bi-fold system when in the depicted position. The lower flap can optionally include a longitudinal piece of nylon strap 17 sewn across the lower flap 18 so serve as an additional belt-loop-style connection feature while carrying or transporting the pouch and associated contents. This nylon strap 17 is sewn at both ends to the multi-layer material, with ends then covered with an outer binder 21 material sewn around the edges of the flaps to create a finished look.

FIG. 12 is a right side view of pouch device 1 in the orientation and use of FIG. 10. Note that the suction cup 8 is conveniently secured within the interior space 33 or “bi-fold enclosure space” created between the folded flaps of the bi-fold system 31, as are knob 1 and grommet 26, which are not visible as they are compressed within the multi-layer material and corresponding folds.

FIG. 13 is a rear isometric view of pouch device 1 in the orientation and use of FIG. 10, with the device 1 installed on an object passing through the bi-fold enclosure space bi-fold system 31, between the central portion of the system 31 and the upper flap 6. The object in this figure is a strap 30, but the bi-fold system 31 may connect to other objects, such as a shoulder strap, belt, or backpack strap or handle. The bi-fold system with hook and loop patches allows the flaps to be closed around the object, thereby allowing the pouch 2 and associated contents within the pouch 2 to be attached to an object, creating convenience in transportation of such contents to allow the user to keep their hands free for other activities.

FIG. 14 is a front isometric view of an alternative pouch device 101, illustrating a pouch 102 that includes no front zipper pocket on the front exterior of the pouch 102. Instead, pouch device 101 comprises a zipper pocket inside the main compartment 135 of the pouch 102, specifically on the front surface of rear half 140 (or rear portion) of the pouch 102. One may note that both pocket 16 and pocket 116 may be called “smaller zipper pockets” because they are smaller in volume and typically slightly shorter in length that the main interior compartment of these pouches 2, 102. This alternative design allows for an internal pocket that can be operated/used in a similar fashion as external pocket 16 to store the elastic retention strap and other contents. With the location of pocket 116 at the interior of the pouch, a user may desire the pouch to open a wider distance, requiring the outer zipper system 110 to be extended further down the sides, around the lower corners, and partially around the lower edge of the pouch 102. The outer zipper system 110 could therefore be slightly altered to provide pouch openings of varying sizes depending on the internal design of the main pouch compartment, and the necessary/desired access to contents stored therein. This alternative embodiment could allow an additional feature(s) (not shown) to be attached to the front of the pouch 102 itself, for example, a secondary pouch, sleeve, pocket, wallet slots for credit cards, etc.

FIG. 15 shows the pouch 102 fully opened/unzipped with transverse strap 120 extended from the interior zipper pocket 116, into the main compartment 135 of the pouch, and out through the top opening created by the main pouch zipper being partially unzipped at the top of the pouch. The interior zipper pocket 116 may be of similar dimensions and design features as the previously shown exterior pocket 16, with zipper 114 and slider 112 being integrated into the pocket 116 design to allow the pocket to be opened/closed. This illustration depicts the zipper 114 as open, allowing an elastic strap 120 to be extended out from inside the pocket 116. This strap 120 would preferably be very similar to the previously-described strap 20, but may be slightly longer in length. The strap 120 would preferably include a patch of hook material 124 sewn to one side of the distal end of the strap, similar to that previously-described. The transverse strap 120 can be folded and stored within the zipper pocket 116 to be kept while not in use.

The long main zipper 110, and resulting wide-opening of the pouch 102, allows the main interior compartment, and pocket 116, to be easily accessed. The dual slider design allows the sliders 4 and 5 to be located at any point along the zipper line to create the desired, wide pouch opening. The front half 150 (or front portion) of pouch 102 could optionally include additional interior features not shown here, such as a pocket, pouch, sleeve, credit cards slots, etc.

FIG. 16 shows pouch device 101, with internal elastic retention strap 120 extended from inside of the main pouch. The pouch 102 is shown with sliders located at the top central region of the compartment, pushed next to or near strap 120. The outer zipper 110 is therefore partially closed to only allow the strap 120 to be extended from the interior of the pouch.

FIGS. 17 and 18 shows pouch device 101 with strap 120 wrapped around an electronic device 28 to hold it pressed tightly against the front of pouch 102 in the landscape orientation. As understood from earlier description, upper flap 106 of bi-fold system 131 is unfolded, allowing the suction cup 8 to be removably attached to a smooth vertical flat surface 9. The strap 120 is extended from the main compartment 135, lower flap 118 is wrapped upwards and around the lower side of the pouch 102 and the lower edge of the device 28 with a patch of loop material 119 front-facing to serve as a connection for the corresponding patch of hook material 124. The resulting orientation of the device 28 is therefore identical to that previously described for FIG. 4, with the only alteration being the relative location of the zipper pocket at the interior of the main pouch compartment rather than at the exterior front. As such, device 101 allows for the same preferred orientation and location of the device, while employing an identical bi-fold flap system from the rear of the main pouch compartment.

FIG. 19 is a front isometric side view of pouch device 101, illustrating the bi-fold flaps being in an unfolded orientation, exposing the suction cup 8 allowing for attachment to a smooth surface 9. The double sliders 4 and 5 are opened along the zipper at the top of the pouch 102, allowing a top slot opening at which to insert an electronic device 28. The illustration is provided to demonstrate the identical operation of the apparatus as previously described in FIG. 7 for pouch device 1 showing that the use of the pouch 102 is not dependent upon where the zipper pocket and strap assembly are located (interior or exterior).

The depictions in the Figures illustrate some of the many ways of suspending the pouch and a captured device 28. The general design allows for other traditional wallet type features to be integrated into the design as needed. The basic design parameters allow some flexibility for the location of the zipper pocket (16 and 116) being either at the interior or exterior of the main pouch compartment. Regardless of location, the functionality of the strap assembly in conjunction with the bi-fold flap assembly allow the preferred orientations of the device while the pouch device is suspended from smooth surfaces to allow self-photos and video recording.

GENERAL DESCRIPTIONS OF PREFERRED FEATURES OF CERTAIN EMBODIMENTS

The electronic device holster may be conveniently made from conventional materials by conventional techniques. Preferably, the multi-layer pouch compartment, elastic retention strap, bi-fold flaps and associated materials, hook/loop fasteners and zippers/sliders are of good quality to obtain the desired effect, all existing materials being readily available through traditional sourcing methods. The suction cup with knob may be of the conventional type which is readily available through a variety of sources, or a custom-molded cup can be created providing the desired suction to effectively attach to smooth surfaces. The current preferred suction cup is 1.5″ to 2″ inches in diameter. The suction cup may be of a different style and size compared to those shown in the drawings, for example, different diameters and/or different systems for attaching the cup to the upper flap and/or main body of the holster. Alternatively, the materials and lining making up the main pouch body and other members may be of other types of materials compared to those shown in the drawings. For example, the materials could be of leather, rubber, specialty elastics, and/or specialty materials for specific devices or economy reasons. Also, the number of suction cups could be increased and/or the cup(s) could be placed differently in certain embodiments to accommodate specialty electronic devices; hence, it may be said that “at least one” suction cup, or “one or more” suction cups may be used.

While it is preferred that the elastic retention strap is provided, some less-preferred embodiments may simply provide the pouch and bi-fold flaps on the main body of the pouch, therefore only providing the portrait orientation for pictures and video, rather than an apparatus the does both portrait and landscape orientation.

Additionally, while the preferred pouch contains an exterior zipper pocket on the front of the main body, an alternative design would be to locate the zipper pocket at the interior of the main pouch. The internal elastic retention strap may therefore extended from either location; an interior or exterior zipper pocket to achieve the same desired functionality.

The preferred pouch and bi-fold flaps described herein provides a unique attachment option while using an electronic device in either portrait or landscape orientation, for taking self-photos or video while the apparatus is suspended via suction cup to smooth surfaces, or smooth objects. This unique combination of options is accomplished in certain embodiments at least in part because the design features and specific dimensions and physical characteristics of the apparatus. There is some leeway in where the zipper pocket is sewn into place either on the interior or exterior of the pouch, and some variation in the overall length and width of the main pouch compartment; even with this leeway and variation, the apparatus will still be able to generally secure an electronic device and allow the pouch to be attached via suction cup to a smooth surface or smooth object. Optionally but less preferably, an elastic retention strap may be attached to the interior of the pouch, but not inside its own pocket; this will be less neat and aesthetically-pleasing, but it may be functionally effective. Preferably, the upper of the two bi-fold flaps (the upper flap with suction cup) extends upwards slightly above the top half of the main body of the pouch, while the lower flap (with grommet and hook/loop fastener) preferably extends below the centerline to the lower half of the main body so that the internal elastic strap can be extended downwards and attach to this lower flap via hook and loop fastener. Also, adaptations may be made in certain embodiments in the start and stop points of the zippers that create the main body pouch to allow adjustment for various sizes of electronic devices. For example, the zippers may start/stop at the midway point of the pouch, or may extend and wrap much lower to allow the pouch itself to open wider to access interior compartments or pockets that may be integrated into the inside of the pouch itself. Thus, the double zipper start/stop locations may vary, as they can wrap only half way around the outer edge of the pouch, or can extend much further, allowing the pouch to open wider.

From this description and the drawings, one may understand that the electronic device may be easily placed either inside of the main double zipper pouch that creates the main body and securely retained within to achieve portrait orientation for taking hands-free pictures or recording video, or simply inserted within the pouch for transport/storage. Thus, the device is a convenient and economical apparatus for both transporting/storing an electronic device as well as suspending an electronic device from a smooth vertical surface, or smooth object. It is especially beneficial for those taking pictures and video with a smartphone, or some other type of electronic device with photo and video capabilities whereby the apparatus enhances the quality of the photo or video that is captured with said device. It may be noted that modern shutter features make the device especially beneficial. For example, some shutter features will “snap” the shutter only when the subject(s) have generally stopped motion; this allows the holster user to walk from the suspended holster and device, to join a group or take a desirable position, before the camera will take the picture. Or, a timer may be used, as in a more-traditional shutter-delay feature.

The device-capturing strap that extends from the zipper pocket may be textiles, woven or braided material, polymeric or rubber materials, or other preferably flexible and elastic material, but, most preferably, they are materials having elasticity and the capacity to maintain their integrity through conventional sewing techniques. The preferred materials are not permanently deformed from normal stretching, but return to their original shape once the stretching stress (tension) is removed. Typically, fabrics having these qualities are not translucent. Non-limiting examples of materials that can be used include synthetic rubbers such as neoprene (polychloroprene); petrochemical based or other synthetically manufactured fibrous materials such as spandex (elastane), nylon, olefin fiber, polyester fabric, rayon, and particularly combinations and blends of the noted materials with each other and with other animal, plant, mineral or synthetic based textile such as cotton. In one aspect, the flexible and elastic fabric material can include a blend including neoprene and spandex.

As used herein, the term “tightly” refers to a fit including direct physical contact between at least a majority of surfaces sufficient to create a resistance to displacement due to the frictional forces caused by said direct physical contact of the surfaces. For proper use of the strap, the degree of friction maintaining placement of an electronic device in an associated strap is sufficient to reliably counteract gravity, but is preferably relatively easy to overcome by purposeful user manipulation (as with inserting and removing the electronics device).

As used herein, directional-based descriptive terms, such as “front,” “back,” “side,” “top,” “bottom,” and the like are used for ease of discussion. Such use is not to be interpreted as requiring use only in such direction or orientation, as that these directional descriptors help the writer to describe elements of the embodiments relative to each other, and to describe the elements relative to example (but not necessarily all) electronic devices.

As used herein, the terms portrait and landscape refer to the page orientation of the camera/device as being vertical or horizontal. Page orientation is the way in which a rectangular page, or photograph, is oriented for normal viewing, in this case referenced as a vertical orientation of a rectangular shaped device. The two most common types of orientation are portrait and landscape. The specific word definition comes from the fact that a close-up portrait of a person's face and upper body is more fitting for a canvas or photo where the height of the display area is greater than the width. Landscape originally described artistic outdoor scenes where a wide view area is needed, but the upper part of the photo would be mostly sky and so is omitted. In this case, landscape is referred to as a horizontal orientation of a rectangular shaped electronic device (long dimension of the device being horizontal). Additionally, portrait is referred to as a vertical orientation of a rectangular shaped electronic device (long dimension of the device being vertical).

Certain embodiments may be described as a pouch device for an electronic device having camera and/or video capability, the pouch comprising or consisting essentially of, or consisting of: a pouch having an interior compartment and a zippered opening into the interior compartment, the interior compartment being for receiving the electronic device for storage; a lower flap extending downward from the pouch; and a retention strap connected to an upper portion of the pouch and, in a first pouch configuration, extendible to connect to the lower flap to form a retention loop defining a space between the loop and a front side of the pouch, the space being for receiving the electronic device in a landscape orientation; wherein the retention strap, in a second configuration, is stored inside the pouch. The retention strap may extend out from an external pocket on the front side of the pouch in said first configuration, and is stored in the external pocket in said second configuration. The retention strap may extend out from an interior pocket inside the interior compartment of the pouch and, in said first configuration, extends out of the interior compartment through the zippered opening, and is stored in the interior pocket in said second configuration. An upper flap may extend upward from the pouch, wherein the upper flap and lower flap fold toward each other and connect to each other at a rear side of the pouch to form a rear loop for receiving an object to hang the pouch device from said object. An upper flap may extend upward from the pouch, and a suction cup may be connected to the upper flap for suspending the pouch device from a surface. The upper flap and lower flap may fold toward each other and connect to each other to enclose the suction cup. The zippered opening into the interior compartment may be closable by a double-pull zipper comprising a right and left zipper portion, and the right and left zipper portions may be zipped to close the zippered opening except for an open slot at the top of the pouch, the open slot being for receiving a lower end of the electronic device in the interior compartment with an upper end of the electronic device extending above the pouch in portrait configuration with a lens in said upper end of the electronic device facing forward. The retention strap is preferably elastic, so that is can be stretched around/along the electronic device surface to capture it against the pouch.

Certain embodiments may be described as an electronic-device storage and suspension device, the device comprising, consisting essentially of, or consisting of: an elongated hand-held electronic device having a lens near one end for taking pictures or video recording, the electronic device having a length; a pouch having an interior compartment and a zippered opening into the interior compartment, the interior compartment having a longitudinal axis sized to receive the electronic device for storage in a horizontal orientation parallel to the longitudinal axis, and the interior compartment having a depth transverse to the longitudinal axis that is smaller than the longitudinal axis and smaller than the length of the electronic device, so that the electronic device and said lens extend up above the zippered opening of the interior compartment when the electronic-device is received in the interior compartment in portrait configuration; a lower flap extending downward from the pouch; and a retention strap connected to an upper portion of the pouch and, in a first pouch configuration, is extendible to connect to the lower flap to form a retention loop defining a space between the loop and a front side of the pouch, the space being for receiving the electronic device in a landscape orientation; wherein the retention strap, in a second configuration, is stored inside the pouch. The retention strap may extend out from an external pocket on the front side of the pouch in said first configuration, and is stored in the external pocket in said second configuration. The retention strap may extend out from an interior pocket inside the interior compartment of the pouch and out of the interior compartment through the zippered opening in said first configuration, and is stored in the interior pocket in said second configuration. The zippered opening into the interior compartment may have a double-pull zipper comprising a right and left zipper portion, and the right and left zipper portions may be zipped close to the electronic device, so that the pouch is closed except for an open slot at the top of the pouch through which the electronic-device extends. The device may further comprise, in certain embodiments, an upper flap extending upward from a rear side of the pouch, wherein the upper flap and lower flap are opposing ends of a member sewn onto the rear side of the pouch main body, so that the flaps can be folded toward a center region of the member, and said flaps are securely stored while folded with hook and loop fasteners. The device may further comprise, in certain embodiments, an upper flap extending upward form the a rear side of the pouch, wherein the upper flap comprises a suction cup having a suction portion and a protruding knob opposite the suction portion, and wherein a grommetted hole is provided in a central area of the lower flap, thereby providing a relief hole at which the protruding knob can extend into when the upper flap and lower flap are folded against each other, allowing the flaps to compress tightly together when folded in place to minimize the size and bulk of the folded flap system. The pouch may be 5-7 inches long and 3.5-5 inches wide, with a depth from front to rear of ¾ to 1 inches, for example. The pouch may be formed of a front portion and a rear portion pivotally connected together at a hinge area and zipped together along an outer perimeter of the front portion and rear portion, wherein the front portion and rear portion form an interior compartment between them for receiving the electronic device in both a horizontal orientation for storage and a vertical orientation for taking photos or videos with a lens of the electronic device in a portion of the electronic device that extends up through a top opening slot formed by partial unzipping of the pouch. The zipper-pulls may be pulled to close the pouch up to the electronic device to hold the electronic device in place in said vertical orientation.

Certain embodiments may be described as a method of securing an electronic device to surfaces and objects for hands-free photos and video, the method comprising, consisting essentially of, or consisting of: providing a carrying pouch having a generally rectangular main body, an elastic horizontal strap connected to the inside of a zipper pocket on the main body and comprising a hook-and-loop fastener at a distal strap end, an upper flap connected to a rear mid-region of said main body and comprising a suction cup suspension mechanism attached to said upper flap, a lower flap connected to the rear mid-region of said main body and comprising a patch of hook-and-loop fastener and a circular grommet; unfolding the upper and lower flaps from behind the pouch to expose the suction cup mechanism; unzipping the pouch using a zipper with sliders for access to an interior compartment of the pouch through a pouch opening, and placing an electronic device vertically upright into the interior compartment in a portrait orientation, moving the sliders adjacent to the electronic device, whereby the pouch opening is held around the electronic device to capture it in a vertically upright position; and suspending the pouch, and the electronic device captured therein, from a vertical surface by connecting the suspension mechanism to the vertical surface. The method may further comprise: moving the electronic device to a landscape orientation against the front of the pouch wherein the electronic device length is parallel to a longitudinal axis of the pouch, extending a transverse strap from the zipper pocket, wrapping the lower flap forward around a lower edge of the electronic device, wrapping the transverse strap downward around the electronic device, and fastening a distal end of the transverse strap to a front facing side of the lower flap by hook-and-loop fastening, whereby the transverse strap is stretched to capture the electronic device against the main body; and suspending the pouch, and the electronic device captured therein, from a vertical surface by connecting the suction cup to the vertical surface.

Although this invention has been described above with reference to particular means, materials and embodiments, it is to be understood that the invention is not limited to these disclosed particulars, but extends instead to all equivalents within the broad scope of the following claims. 

What is claimed is:
 1. A pouch device for an electronic device having camera and/or video capability, the pouch comprising: a pouch having an interior compartment and a zippered opening into the interior compartment, the interior compartment being for receiving the electronic device for storage; a lower flap extending downward from the pouch; and a retention strap connected to an upper portion of the pouch and, in a first pouch configuration, extendible to connect to the lower flap to form a retention loop defining a space between the loop and a front side of the pouch, the space being for receiving the electronic device in a landscape orientation; wherein the retention strap, in a second configuration, is stored inside the pouch.
 2. A pouch device as in claim 1, wherein the retention strap extends out from an external pocket on the front side of the pouch in said first configuration, and is stored in the external pocket in said second configuration.
 3. A pouch device as in claim 1, wherein the retention strap extends out from an interior pocket inside the interior compartment of the pouch and, in said first configuration, extends out of the interior compartment through the zippered opening, and is stored in the interior pocket in said second configuration.
 4. A pouch device as in claim 1, further comprising an upper flap extending upward from the pouch, wherein the upper flap and lower flap fold toward each other and connect to each other at a rear side of the pouch to form a rear loop for receiving an object to hang the pouch device from said object.
 5. A pouch device as in claim 1, further comprising an upper flap extending upward from the pouch, and a suction cup connected to the upper flap for suspending the pouch device from a surface.
 6. A pouch device as in claim 5, wherein the upper flap and lower flap fold toward each other and connect to each other to enclose the suction cup.
 7. A pouch device as in claim 1, wherein the zippered opening into the interior compartment is closable by a double-pull zipper comprising a right and left zipper portion, and the right and left zipper portions are zipped to close the zippered opening except for an open slot at the top of the pouch, the open slot being for receiving a lower end of the electronic device in the interior compartment with an upper end of the electronic device extending above the pouch in portrait configuration with a lens in said upper end of the electronic device facing forward.
 8. An electronic-device storage and suspension device, the device comprising: an elongated hand-held electronic device having a lens near one end for taking pictures or video recording, the electronic device having a length; a pouch having an interior compartment and a zippered opening into the interior compartment, the interior compartment having a longitudinal axis sized to receive the electronic device for storage in a horizontal orientation parallel to the longitudinal axis, and the interior compartment having a depth transverse to the longitudinal axis that is smaller than the longitudinal axis and smaller than the length of the electronic device, so that the electronic device and said lens extend up above the zippered opening of the interior compartment when the electronic-device is received in the interior compartment in portrait configuration; a lower flap extending downward from the pouch; and a retention strap connected to an upper portion of the pouch and, in a first pouch configuration, is extendible to connect to the lower flap to form a retention loop defining a space between the loop and a front side of the pouch, the space being for receiving the electronic device in a landscape orientation; wherein the retention strap, in a second configuration, is stored inside the pouch.
 9. A device as in claim 8, wherein the retention strap extends out from an external pocket on the front side of the pouch in said first configuration, and is stored in the external pocket in said second configuration.
 10. A device as in claim 8, wherein the retention strap extends out from an interior pocket inside the interior compartment of the pouch and out of the interior compartment through the zippered opening in said first configuration, and is stored in the interior pocket in said second configuration.
 11. A device as in claim 8, further comprising an upper flap extending upward from the pouch, and a suction cup connected to the upper flap for suspending the pouch device from a generally vertical surface.
 12. A device as in claim 12, wherein the upper flap and lower flap fold rearward toward each other and connect to each other to form a bi-fold enclosure space that encloses the suction cup and that is adapted to receive an elongated object for suspending the device from said elongated object.
 13. A device as in claim 8, wherein the zippered opening into the interior compartment has a double-pull zipper comprising a right and left zipper portion, and the right and left zipper portions are zipped close to the electronic device, so that the pouch is closed except for an open slot at the top of the pouch through which the electronic-device extends.
 14. A device as in claim 8, further comprising an upper flap extending upward from a rear side of the pouch, wherein the upper flap and lower flap are opposing ends of a member sewn onto the rear side of the pouch main body, so that the flaps can be folded toward a center region of the member, and said flaps are securely stored while folded with hook and loop fasteners.
 15. A device as in claim 8, further comprising an upper flap extending upward form the a rear side of the pouch, wherein the upper flap comprises a suction cup having a suction portion and a protruding knob opposite the suction portion, and wherein a grommetted hole is provided in a central area of the lower flap, thereby providing a relief hole at which the protruding knob can extend into when the upper flap and lower flap are folded against each other, allowing the flaps to compress tightly together when folded in place to minimize the size and bulk of the folded flap system.
 16. A device as in claim 8, wherein said pouch is formed of a front portion and a rear portion pivotally connected together at a hinge area and zipped together along an outer perimeter of the front portion and rear portion, wherein the front portion and rear portion form an interior compartment between them for receiving the electronic device in both a horizontal orientation for storage and a vertical orientation for taking photos or videos with a lens of the electronic device in a portion of the electronic device that extends up through a top opening slot formed by partial unzipping of the pouch.
 17. A device as in claim 16, wherein zipper-pulls close the pouch up to the electronic device to hold the electronic device in place in said vertical orientation.
 18. A device as in claim 8, wherein the retention strap is elastic.
 19. A method of securing an electronic device to surfaces and objects for hands-free photos and video, the method comprising: a) providing a carrying pouch having a generally rectangular main body, an elastic horizontal strap connected to the inside of a zipper pocket on the main body and comprising a hook-and-loop fastener at a distal strap end, an upper flap connected to a rear mid-region of said main body and comprising a suction cup suspension mechanism attached to said upper flap, a lower flap connected to the rear mid-region of said main body and comprising a patch of hook-and-loop fastener and a circular grommet; b) unfolding the upper and lower flaps from behind the pouch to expose the suction cup mechanism; c) unzipping the pouch using a zipper with sliders for access to an interior compartment of the pouch through a pouch opening, and placing an electronic device vertically upright into the interior compartment in a portrait orientation, moving the sliders adjacent to the electronic device, whereby the pouch opening is held around the electronic device to capture it in a vertically upright position; and d) suspending the pouch, and the electronic device captured therein, from a vertical surface by connecting the suspension mechanism to the vertical surface.
 20. A method as in claim 19, further comprising: a) moving the electronic device to a landscape orientation against the front of the pouch wherein the electronic device length is parallel to a longitudinal axis of the pouch, extending a transverse strap from the zipper pocket, wrapping the lower flap forward around a lower edge of the electronic device, wrapping the transverse strap downward around the electronic device, and fastening a distal end of the transverse strap to a front facing side of the lower flap by hook-and-loop fastening, whereby the transverse strap is stretched to capture the electronic device against the main body; and b) suspending the pouch, and the electronic device captured therein, from a vertical surface by connecting the suction cup to the vertical surface. 